ErfolgreichKonsolenausgabe
Gestartet durch vorgelagertes Projekt „Daily-DelphinSolver“, Build 4585
Ursprünglich gestartet durch:
Build wurde zeitgesteuert ausgelöst.
Running as SYSTEM
Baue auf Master in Arbeitsbereich /var/lib/jenkins/jobs/Daily-Examples-Init-DelphinSolver/workspace
[workspace] $ /bin/sh -xe /tmp/jenkins3533918889485768887.sh
+ cd ../../Daily-DelphinSolver/workspace/DelphinSolver/build/cmake/
+ echo ++++ starting init tests ++++
++++ starting init tests ++++
+ ./init_tests_examples.sh
DELPHIN 6 Solver
All rights reserved.
The DELPHIN 6 Development Team:
Andreas Nicolai, Stefan Vogelsang, Anne Paepcke, Heiko Fechner, John Grunewald
Contact: andreas.nicolai [at] tu-dresden.de
Compiled with GCC 9.4.0
Delphin model and file format library version 6.1.8
Material model and file format library version 6.1.1
IBK library version 5.0.0
DATAIO library version 7.1.4
CCM library version 1.1.0
JADE library version 1.3.1
JAC library version 1.6.0
Salt library version 1.0.0
Pollutant library version 1.3.0
Integrator Framework Version 1.0.0
SUNDIALS Release Version 2.7.0
Project file: 'DIN_EN_15026-2007/DIN EN 15026 - 2007.d6p'
Output root dir: 'DIN_EN_15026-2007/DIN EN 15026 - 2007'
Reading project file : DIN EN 15026 - 2007.d6p
Project read successfully.
Initializing model
Initializing Solver Parameter
Automatically setting NonLinSolverConvCoeff to 0.1, so that product of reltol and factor is 1e-6.
Instantiating Balance Equation Module:
'Energy and Moisture Balance Equations (IBK)' [BEHeatMoisture]
Checking assignments for valid ranges
Removed unused definitions from project
1 materials (of 1) used:
* Material EN 15026:2007
1 interface definitions (of 1) used:
* Interface 1
0 initial conditions (of 0) used:
0 field conditions (of 0) used:
0 contact conditions (of 0) used:
2 boundary conditions (of 2) used:
* Heat Conduction
* Vapour Diffusion
2 climate conditions (of 2) used:
* Temperature
* RH
2 output file definition (of 2) used:
* TempField
* MoistField
1 output grids (of 1) used:
* Interval
Creating default initial conditions
Default initial temperature = 20 degC
Default initial relative humidity = 80 %
Creating definitions for assessments/reports
Creating interface definitions for engineering models
Reading material data files
Reading material file 'EN_150262007_16777217.m6'.
Reading climate data files and initializing calculation
Connecting Definitions
Module Setup
Selecting standard flux modules:
FluxHeatConduction
FluxLiquidConvection
FluxMoistureEnthalpy
FluxVaporDiffusion
Selecting standard boundary flux modules:
BCFluxHeatConduction
BCFluxMoistureEnthalpy
BCFluxVaporDiffusion
Instantiating flux modules
[BCFluxHeatConduction] Boundary Condition: Heat Conduction Flux (IBK)
[BCFluxVaporDiffusion] Boundary Condition: Vapor Diffusion Flux (IBK)
[FluxHeatConduction] Heat Conduction Flux (IBK)
[FluxLiquidConvection] Liquid Convection Flux (IBK)
[FluxVaporDiffusion] Vapor Diffusion Flux (IBK)
[BCFluxMoistureEnthalpy] Boundary Condition: Enthalpy flux for liquid convection and vapor diffusion (IBK)
[FluxMoistureEnthalpy] Enthalpy flux for liquid convection and vapor diffusion (IBK)
Creating auxiliary model data
Initializing quantities
34 States
7 Internal Fluxes
8 Boundary Condition Fluxes
2 Sources
Discretization and Grid Generation
Grid width (x-dim, radius) = 50 m
Grid height (y-dim, height) = 1 m
Grid depth (z-dimension) = 1 m
Assigning materials
'Material EN 15026:2007' [EN_150262007_16777217.m6]
Assigning Initial Conditions
'Default initial relative humidity' [RelativeHumidity]
assigned to [0, 0, 0] - [524, 0, 0]
'Default initial temperature' [Temperature]
assigned to [0, 0, 0] - [524, 0, 0]
Assigning field conditions
Grid numbering:
Optimizing numbering in domain #1.
Domain element range: 0..524, size = 525
Numbering Order: col, stack, row [IKJ] (loop order)
Optimizing CMK numbering starting from node:
0 -> hbw = 1
524 -> hbw = 1
CMK (optimized) - max. half bandwidth: 1
Total elements count : 525
Used elements count : 525
Assigning interfaces
Removing unused sides
Assigning output file definitions for horizontal sides.
Assigning interfaces
'Interface 1' assigned to [0, 0, 0] - [0, 0, 0] Left
Removing unused sides
Assigning output file definitions for vertical sides.
Assigning interfaces
Removing unused sides
Assigning output file definitions for frontal sides.
Total side count : 2626
Reduced side count : 525
Creating Element -> Side links
Computing weight-factors for boundary value extrapolation
Volumes/areas for used material references:
Material Area [m2]
------------------------------------------------------------
Material EN 15026:2007 50
Grid complete.
Elements : 525
Sides (total/internal/boundary) : 525/524/1
Half-Bandwidth (element-based) : 1
Checking field conditions
Initializing data storage vectors (memory allocation)
Creating/opening output files
Composing initial condition vector
Input value checks
Checking modules for runtime exceptions before starting calculation.
Checking sources for runtime exceptions before starting calculation.
Checking flux modules for runtime exceptions before starting calculation.
Initialization Model Interface
Creating Linear Equation Solver Modules
Number of unknowns : 1050
Element-based half-Bandwidth : 1
Using generic Band solver with bandwidth 7!
Creating Integrator
Using CVODE integrator.
Model initialization complete.
Creating solver framework
Initializing CVODE integrator
Setting NonlinConvCoef to 0.1.
Setting MaxNonLinIters (maxcor) to 3.
Initializing LES solver implementation
Stopping after successful initialization of integrator.
DELPHIN 6 Solver
All rights reserved.
The DELPHIN 6 Development Team:
Andreas Nicolai, Stefan Vogelsang, Anne Paepcke, Heiko Fechner, John Grunewald
Contact: andreas.nicolai [at] tu-dresden.de
Compiled with GCC 9.4.0
Delphin model and file format library version 6.1.8
Material model and file format library version 6.1.1
IBK library version 5.0.0
DATAIO library version 7.1.4
CCM library version 1.1.0
JADE library version 1.3.1
JAC library version 1.6.0
Salt library version 1.0.0
Pollutant library version 1.3.0
Integrator Framework Version 1.0.0
SUNDIALS Release Version 2.7.0
Project file: 'EN_ISO_10211/DIN EN ISO 10211 Case1.d6p'
Output root dir: 'EN_ISO_10211/DIN EN ISO 10211 Case1'
Reading project file : DIN EN ISO 10211 Case1.d6p
Project read successfully.
Initializing model
Initializing Solver Parameter
Instantiating Balance Equation Module:
'Energy Balance Equation (IBK)' [BEHeat]
Checking assignments for valid ranges
Removed unused definitions from project
2 materials (of 2) used:
* Concrete_C20_25
* Concrete_C20_25 [2]
2 interface definitions (of 2) used:
* Interface 1
* Interface 2
0 initial conditions (of 0) used:
0 field conditions (of 0) used:
0 contact conditions (of 0) used:
2 boundary conditions (of 2) used:
* Inside Heat Conduction
* Outside Heat Conduction
2 climate conditions (of 2) used:
* Inside Temperature (constant)
* Outside Temperature (constant)
7 output file definition (of 7) used:
* TempField1
* TempField2
* TempField3
* TempField4
* TempField5
* TempField6
* TempField7
1 output grids (of 1) used:
* Profiles
Creating default initial conditions
Default initial temperature = 20 degC
Default initial relative humidity = 80 %
Creating definitions for assessments/reports
Creating interface definitions for engineering models
Reading material data files
Reading material file 'Concrete_C20_25_10000.m6'.
Reading material file 'Concrete_C20_25[2]_10001.m6'.
Reading climate data files and initializing calculation
Connecting Definitions
Module Setup
Selecting standard flux modules:
FluxHeatConduction
Selecting standard boundary flux modules:
BCFluxHeatConduction
Instantiating flux modules
[BCFluxHeatConduction] Boundary Condition: Heat Conduction Flux (IBK)
[FluxHeatConduction] Heat Conduction Flux (IBK)
Creating auxiliary model data
Initializing quantities
7 States
2 Internal Fluxes
4 Boundary Condition Fluxes
1 Sources
Discretization and Grid Generation
Grid width (x-dim, radius) = 0.999999 m
Grid height (y-dim, height) = 2 m
Grid depth (z-dimension) = 1 m
Assigning materials
'Concrete_C20_25 [2]' [Concrete_C20_25[2]_10001.m6]
'Concrete_C20_25' [Concrete_C20_25_10000.m6]
Assigning Initial Conditions
'Default initial relative humidity' [RelativeHumidity]
assigned to [0, 0, 0] - [99, 199, 0]
'Default initial temperature' [Temperature]
assigned to [0, 0, 0] - [99, 199, 0]
Assigning field conditions
Grid numbering:
Optimizing numbering in domain #1.
Domain element range: 0..19999, size = 20000
Numbering Order: row, col, stack [JIK] (loop order)
Optimizing CMK numbering starting from node:
0 -> hbw = 101
5049 -> hbw = 100
14950 -> hbw = 101
19999 -> hbw = 100
CMK (optimized) - max. half bandwidth: 100
Total elements count : 20000
Used elements count : 20000
Assigning interfaces
'Interface 1' assigned to [0, 199, 0] - [99, 199, 0] Top
'Interface 2' assigned to [0, 0, 0] - [99, 0, 0] Bottom
Removing unused sides
Assigning output file definitions for horizontal sides.
Assigning interfaces
'Interface 2' assigned to [0, 0, 0] - [0, 199, 0] Left
Removing unused sides
Assigning output file definitions for vertical sides.
Assigning interfaces
Removing unused sides
Assigning output file definitions for frontal sides.
Total side count : 80300
Reduced side count : 40100
Creating Element -> Side links
Computing weight-factors for boundary value extrapolation
Volumes/areas for used material references:
Material Area [m2]
------------------------------------------------------------
Concrete_C20_25 0.999998
Concrete_C20_25 [2] 0.999998
Grid complete.
Elements : 20000
Sides (total/internal/boundary) : 40100/39700/400
Half-Bandwidth (element-based) : 100
Checking field conditions
Initializing data storage vectors (memory allocation)
Creating/opening output files
Composing initial condition vector
Input value checks
Checking modules for runtime exceptions before starting calculation.
Checking sources for runtime exceptions before starting calculation.
Checking flux modules for runtime exceptions before starting calculation.
Initialization Model Interface
Creating Linear Equation Solver Modules
Number of unknowns : 20000
Element-based half-Bandwidth : 100
Using KLU sparse direct solver!
Creating Integrator
Using CVODE integrator.
Model initialization complete.
Creating solver framework
Initializing CVODE integrator
Setting NonlinConvCoef to 1e-05.
Setting MaxNonLinIters (maxcor) to 3.
Initializing Jacobian implementation
SparseMatrix: generating color arrays
7 colors
Initializing LES solver implementation
Stopping after successful initialization of integrator.
DELPHIN 6 Solver
All rights reserved.
The DELPHIN 6 Development Team:
Andreas Nicolai, Stefan Vogelsang, Anne Paepcke, Heiko Fechner, John Grunewald
Contact: andreas.nicolai [at] tu-dresden.de
Compiled with GCC 9.4.0
Delphin model and file format library version 6.1.8
Material model and file format library version 6.1.1
IBK library version 5.0.0
DATAIO library version 7.1.4
CCM library version 1.1.0
JADE library version 1.3.1
JAC library version 1.6.0
Salt library version 1.0.0
Pollutant library version 1.3.0
Integrator Framework Version 1.0.0
SUNDIALS Release Version 2.7.0
Project file: 'EN_ISO_10211/DIN EN ISO 10211 Case2.d6p'
Output root dir: 'EN_ISO_10211/DIN EN ISO 10211 Case2'
Reading project file : DIN EN ISO 10211 Case2.d6p
Project read successfully.
Initializing model
Initializing Solver Parameter
Instantiating Balance Equation Module:
'Energy Balance Equation (IBK)' [BEHeat]
Checking assignments for valid ranges
Removed unused definitions from project
4 materials (of 4) used:
* Material1
* Material4
* Material3
* Material2
2 interface definitions (of 2) used:
* Inside
* Outside
0 initial conditions (of 0) used:
0 field conditions (of 0) used:
0 contact conditions (of 0) used:
2 boundary conditions (of 2) used:
* Inside Heat Conduction
* Outside Heat Conduction
2 climate conditions (of 4) used:
* Inside Temperature (constant)
* Outside Temperature (constant)
5 output file definition (of 5) used:
* HeatFlux
* TempField1
* TempField2
* TempField3
* TempField4
2 output grids (of 2) used:
* Endtime
* Hourly
Creating default initial conditions
Default initial temperature = 10 degC
Default initial relative humidity = 80 %
Creating definitions for assessments/reports
Creating interface definitions for engineering models
Reading material data files
Reading material file 'Material1_100000.m6'.
Reading material file 'Material4_100003.m6'.
Reading material file 'Material3_100002.m6'.
Reading material file 'Material2_100001.m6'.
Reading climate data files and initializing calculation
Connecting Definitions
Auto-generating CC 'RelativeHumidity' for constant value: 50 %, referenced from BC 'Outside Heat Conduction'
Module Setup
Selecting standard flux modules:
FluxHeatConduction
Selecting standard boundary flux modules:
BCFluxHeatConduction
Instantiating flux modules
[BCFluxHeatConduction] Boundary Condition: Heat Conduction Flux (IBK)
[FluxHeatConduction] Heat Conduction Flux (IBK)
Creating auxiliary model data
Initializing quantities
7 States
2 Internal Fluxes
4 Boundary Condition Fluxes
1 Sources
Discretization and Grid Generation
Grid width (x-dim, radius) = 0.5 m
Grid height (y-dim, height) = 0.0475 m
Grid depth (z-dimension) = 1 m
Assigning materials
'Material1' [Material1_100000.m6]
'Material2' [Material2_100001.m6]
'Material3' [Material3_100002.m6]
'Material4' [Material4_100003.m6]
Assigning Initial Conditions
'Default initial relative humidity' [RelativeHumidity]
assigned to [0, 0, 0] - [193, 188, 0]
'Default initial temperature' [Temperature]
assigned to [0, 0, 0] - [193, 188, 0]
Assigning field conditions
Grid numbering:
Optimizing numbering in domain #1.
Domain element range: 0..36665, size = 36666
Numbering Order: col, row, stack [IJK] (loop order)
Optimizing CMK numbering starting from node:
0 -> hbw = 189
17766 -> hbw = 189
18899 -> hbw = 190
36665 -> hbw = 190
CMK (optimized) - max. half bandwidth: 189
Total elements count : 36666
Used elements count : 36666
Assigning interfaces
'Inside' assigned to [0, 0, 0] - [193, 0, 0] Bottom
'Outside' assigned to [0, 188, 0] - [193, 188, 0] Top
Removing unused sides
Assigning output file definitions for horizontal sides.
Assigning interfaces
Removing unused sides
Assigning output file definitions for vertical sides.
Assigning interfaces
Removing unused sides
Assigning output file definitions for frontal sides.
Total side count : 147047
Reduced side count : 73337
Creating Element -> Side links
Computing weight-factors for boundary value extrapolation
Volumes/areas for used material references:
Material Area [m2]
------------------------------------------------------------
Material1 0.003
Material4 0.00082275
Material3 0.0198522
Material2 7.5e-05
Grid complete.
Elements : 36666
Sides (total/internal/boundary) : 73337/72949/388
Half-Bandwidth (element-based) : 189
Checking field conditions
Initializing data storage vectors (memory allocation)
Creating/opening output files
Output definition 'HeatFlux' is only assigned to boundary sides, therefore boundary flux sign convention is used.
Composing initial condition vector
Input value checks
Checking modules for runtime exceptions before starting calculation.
Checking sources for runtime exceptions before starting calculation.
Checking flux modules for runtime exceptions before starting calculation.
Initialization Model Interface
Creating Linear Equation Solver Modules
Number of unknowns : 36666
Element-based half-Bandwidth : 189
Using KLU sparse direct solver!
Creating Integrator
Using CVODE integrator.
Model initialization complete.
Creating solver framework
Initializing CVODE integrator
Setting NonlinConvCoef to 1e-05.
Setting MaxNonLinIters (maxcor) to 3.
Initializing Jacobian implementation
SparseMatrix: generating color arrays
7 colors
Initializing LES solver implementation
Stopping after successful initialization of integrator.
DELPHIN 6 Solver
All rights reserved.
The DELPHIN 6 Development Team:
Andreas Nicolai, Stefan Vogelsang, Anne Paepcke, Heiko Fechner, John Grunewald
Contact: andreas.nicolai [at] tu-dresden.de
Compiled with GCC 9.4.0
Delphin model and file format library version 6.1.8
Material model and file format library version 6.1.1
IBK library version 5.0.0
DATAIO library version 7.1.4
CCM library version 1.1.0
JADE library version 1.3.1
JAC library version 1.6.0
Salt library version 1.0.0
Pollutant library version 1.3.0
Integrator Framework Version 1.0.0
SUNDIALS Release Version 2.7.0
Project file: 'HamstadBenchmarks/HamstadBenchmark1.d6p'
Output root dir: 'HamstadBenchmarks/HamstadBenchmark1'
Reading project file : HamstadBenchmark1.d6p
Project read successfully.
Initializing model
Initializing Solver Parameter
Automatically setting NonLinSolverConvCoeff to 0.1, so that product of reltol and factor is 1e-6.
Instantiating Balance Equation Module:
'Energy and Moisture Balance Equations (IBK)' [BEHeatMoisture]
Checking assignments for valid ranges
Removed unused definitions from project
2 materials (of 2) used:
* Hamstad Benchmark 1 Load bearing material
* Hamstad Benchmark 1 Insulation Material
2 interface definitions (of 2) used:
* Interface 1
* Interface 2
3 initial conditions (of 3) used:
* Temperatur
* Wassergehalt_MaterialA
* Wassergehalt_MaterialB
0 field conditions (of 0) used:
0 contact conditions (of 0) used:
3 boundary conditions (of 3) used:
* Inside Heat Conduction
* Inside Vapour Diffusion
* Outside Heat Conduction
3 climate conditions (of 4) used:
* Inside Temperatures (constant)
* Outside Temperature (data points)
* Inside Water Vapour Pressure
3 output file definition (of 7) used:
* HeatFluxInside
* MoistMaterialA
* MoistMaterialB
1 output grids (of 1) used:
* Hourly
Creating default initial conditions
Default initial temperature = 20 degC
Default initial relative humidity = 80 %
Creating definitions for assessments/reports
Creating interface definitions for engineering models
Reading material data files
Reading material file 'HamstadBenchmark1Loadbearingmaterial_16777217.m6'.
Reading material file 'HamstadBenchmark1InsulationMaterial_16777218.m6'.
Reading climate data files and initializing calculation
${Project Directory}/climates/HB1_Teq_e.ccd
Quantity of climate data file 'TEMPER' does not match requested quantity 'Temperature' of climate condition definition.
${Project Directory}/climates/HB1_pa_i.ccd
Quantity of climate data file 'VAPPRESS' does not match requested quantity 'VaporPressure' of climate condition definition.
Connecting Definitions
Module Setup
Selecting standard flux modules:
FluxHeatConduction
FluxLiquidConvection
FluxMoistureEnthalpy
FluxVaporDiffusion
Selecting standard boundary flux modules:
BCFluxHeatConduction
BCFluxMoistureEnthalpy
BCFluxVaporDiffusion
Instantiating flux modules
[BCFluxHeatConduction] Boundary Condition: Heat Conduction Flux (IBK)
[BCFluxVaporDiffusion] Boundary Condition: Vapor Diffusion Flux (IBK)
[FluxHeatConduction] Heat Conduction Flux (IBK)
[FluxLiquidConvection] Liquid Convection Flux (IBK)
[FluxVaporDiffusion] Vapor Diffusion Flux (IBK)
[BCFluxMoistureEnthalpy] Boundary Condition: Enthalpy flux for liquid convection and vapor diffusion (IBK)
[FluxMoistureEnthalpy] Enthalpy flux for liquid convection and vapor diffusion (IBK)
Creating auxiliary model data
Initializing quantities
34 States
7 Internal Fluxes
8 Boundary Condition Fluxes
2 Sources
Discretization and Grid Generation
Grid width (x-dim, radius) = 1 m
Grid height (y-dim, height) = 0.15 m
Grid depth (z-dimension) = 1 m
Assigning materials
'Hamstad Benchmark 1 Insulation Material' [HamstadBenchmark1InsulationMaterial_16777218.m6]
'Hamstad Benchmark 1 Load bearing material' [HamstadBenchmark1Loadbearingmaterial_16777217.m6]
Assigning Initial Conditions
'Default initial relative humidity' [RelativeHumidity]
assigned to [0, 0, 0] - [0, 149, 0]
'Default initial temperature' [Temperature]
assigned to [0, 0, 0] - [0, 149, 0]
'Temperatur' [Temperature]
assigned to [0, 0, 0] - [0, 149, 0]
'Wassergehalt_MaterialA' [MoistureMass]
assigned to [0, 50, 0] - [0, 149, 0]
'Wassergehalt_MaterialB' [MoistureMass]
assigned to [0, 0, 0] - [0, 49, 0]
Assigning field conditions
Grid numbering:
Optimizing numbering in domain #1.
Domain element range: 0..149, size = 150
Numbering Order: row, stack, col [JKI] (loop order)
Optimizing CMK numbering starting from node:
0 -> hbw = 1
149 -> hbw = 1
CMK (optimized) - max. half bandwidth: 1
Total elements count : 150
Used elements count : 150
Assigning interfaces
'Interface 1' assigned to [0, 149, 0] - [0, 149, 0] Top
'Interface 2' assigned to [0, 0, 0] - [0, 0, 0] Bottom
Removing unused sides
Assigning output file definitions for horizontal sides.
Assigning interfaces
Removing unused sides
Assigning output file definitions for vertical sides.
Assigning interfaces
Removing unused sides
Assigning output file definitions for frontal sides.
Total side count : 751
Reduced side count : 151
Creating Element -> Side links
Computing weight-factors for boundary value extrapolation
Volumes/areas for used material references:
Material Area [m2]
------------------------------------------------------------
Hamstad Benchmark 1 Load bearing material 0.1
Hamstad Benchmark 1 Insulation Material 0.05
Grid complete.
Elements : 150
Sides (total/internal/boundary) : 151/149/2
Half-Bandwidth (element-based) : 1
Checking field conditions
Initializing data storage vectors (memory allocation)
Creating/opening output files
Output definition 'HeatFluxInside' is only assigned to boundary sides, therefore boundary flux sign convention is used.
Composing initial condition vector
Input value checks
Checking modules for runtime exceptions before starting calculation.
Checking sources for runtime exceptions before starting calculation.
Checking flux modules for runtime exceptions before starting calculation.
Initialization Model Interface
Creating Linear Equation Solver Modules
Number of unknowns : 300
Element-based half-Bandwidth : 1
Using generic Band solver with bandwidth 7!
Creating Integrator
Using CVODE integrator.
Model initialization complete.
Creating solver framework
Initializing CVODE integrator
Setting NonlinConvCoef to 0.1.
Setting MaxNonLinIters (maxcor) to 3.
Initializing LES solver implementation
Stopping after successful initialization of integrator.
DELPHIN 6 Solver
All rights reserved.
The DELPHIN 6 Development Team:
Andreas Nicolai, Stefan Vogelsang, Anne Paepcke, Heiko Fechner, John Grunewald
Contact: andreas.nicolai [at] tu-dresden.de
Compiled with GCC 9.4.0
Delphin model and file format library version 6.1.8
Material model and file format library version 6.1.1
IBK library version 5.0.0
DATAIO library version 7.1.4
CCM library version 1.1.0
JADE library version 1.3.1
JAC library version 1.6.0
Salt library version 1.0.0
Pollutant library version 1.3.0
Integrator Framework Version 1.0.0
SUNDIALS Release Version 2.7.0
Project file: 'HamstadBenchmarks/HamstadBenchmark2.d6p'
Output root dir: 'HamstadBenchmarks/HamstadBenchmark2'
Reading project file : HamstadBenchmark2.d6p
Project read successfully.
Initializing model
Initializing Solver Parameter
Automatically setting NonLinSolverConvCoeff to 0.1, so that product of reltol and factor is 1e-6.
Instantiating Balance Equation Module:
'Energy and Moisture Balance Equations (IBK)' [BEHeatMoisture]
Checking assignments for valid ranges
Removed unused definitions from project
1 materials (of 1) used:
* Hamstad Benchmark 2 Material A
2 interface definitions (of 2) used:
* Interface 1
* Interface 2
2 initial conditions (of 2) used:
* Initial_Temp
* Initial_Moist
0 field conditions (of 0) used:
0 contact conditions (of 0) used:
4 boundary conditions (of 4) used:
* Inside Heat Conduction
* Inside Vapor Diffusion
* Outside Heat Conduction
* Outside Vapor Diffusion
4 climate conditions (of 4) used:
* Inside Temperature (constant)
* Outside Temperature (constant)
* Inside Water Vapour Pressure (constant)
* Outside Water Vapour Pressure (constant)
1 output file definition (of 1) used:
* MoistField
1 output grids (of 1) used:
* Variabel
Creating default initial conditions
Default initial temperature = 20 degC
Default initial relative humidity = 80 %
Creating definitions for assessments/reports
Creating interface definitions for engineering models
Reading material data files
Reading material file 'HamstadBenchmark2MaterialA_16777217.m6'.
Reading climate data files and initializing calculation
Connecting Definitions
Module Setup
Selecting standard flux modules:
FluxHeatConduction
FluxLiquidConvection
FluxMoistureEnthalpy
FluxVaporDiffusion
Selecting standard boundary flux modules:
BCFluxHeatConduction
BCFluxMoistureEnthalpy
BCFluxVaporDiffusion
Instantiating flux modules
[BCFluxHeatConduction] Boundary Condition: Heat Conduction Flux (IBK)
[BCFluxVaporDiffusion] Boundary Condition: Vapor Diffusion Flux (IBK)
[FluxHeatConduction] Heat Conduction Flux (IBK)
[FluxLiquidConvection] Liquid Convection Flux (IBK)
[FluxVaporDiffusion] Vapor Diffusion Flux (IBK)
[BCFluxMoistureEnthalpy] Boundary Condition: Enthalpy flux for liquid convection and vapor diffusion (IBK)
[FluxMoistureEnthalpy] Enthalpy flux for liquid convection and vapor diffusion (IBK)
Creating auxiliary model data
Initializing quantities
34 States
7 Internal Fluxes
8 Boundary Condition Fluxes
2 Sources
Discretization and Grid Generation
Grid width (x-dim, radius) = 1 m
Grid height (y-dim, height) = 0.2 m
Grid depth (z-dimension) = 1 m
Assigning materials
'Hamstad Benchmark 2 Material A' [HamstadBenchmark2MaterialA_16777217.m6]
Assigning Initial Conditions
'Default initial relative humidity' [RelativeHumidity]
assigned to [0, 0, 0] - [0, 199, 0]
'Default initial temperature' [Temperature]
assigned to [0, 0, 0] - [0, 199, 0]
'Initial_Temp' [Temperature]
assigned to [0, 0, 0] - [0, 199, 0]
'Initial_Moist' [MoistureMass]
assigned to [0, 0, 0] - [0, 199, 0]
Assigning field conditions
Grid numbering:
Optimizing numbering in domain #1.
Domain element range: 0..199, size = 200
Numbering Order: row, stack, col [JKI] (loop order)
Optimizing CMK numbering starting from node:
0 -> hbw = 1
199 -> hbw = 1
CMK (optimized) - max. half bandwidth: 1
Total elements count : 200
Used elements count : 200
Assigning interfaces
'Interface 1' assigned to [0, 199, 0] - [0, 199, 0] Top
'Interface 2' assigned to [0, 0, 0] - [0, 0, 0] Bottom
Removing unused sides
Assigning output file definitions for horizontal sides.
Assigning interfaces
Removing unused sides
Assigning output file definitions for vertical sides.
Assigning interfaces
Removing unused sides
Assigning output file definitions for frontal sides.
Total side count : 1001
Reduced side count : 201
Creating Element -> Side links
Computing weight-factors for boundary value extrapolation
Volumes/areas for used material references:
Material Area [m2]
------------------------------------------------------------
Hamstad Benchmark 2 Material A 0.2
Grid complete.
Elements : 200
Sides (total/internal/boundary) : 201/199/2
Half-Bandwidth (element-based) : 1
Checking field conditions
Initializing data storage vectors (memory allocation)
Creating/opening output files
Composing initial condition vector
Input value checks
Checking modules for runtime exceptions before starting calculation.
Checking sources for runtime exceptions before starting calculation.
Checking flux modules for runtime exceptions before starting calculation.
Initialization Model Interface
Creating Linear Equation Solver Modules
Number of unknowns : 400
Element-based half-Bandwidth : 1
Using generic Band solver with bandwidth 7!
Creating Integrator
Using CVODE integrator.
Model initialization complete.
Creating solver framework
Initializing CVODE integrator
Setting NonlinConvCoef to 0.1.
Setting MaxNonLinIters (maxcor) to 3.
Initializing LES solver implementation
Stopping after successful initialization of integrator.
DELPHIN 6 Solver
All rights reserved.
The DELPHIN 6 Development Team:
Andreas Nicolai, Stefan Vogelsang, Anne Paepcke, Heiko Fechner, John Grunewald
Contact: andreas.nicolai [at] tu-dresden.de
Compiled with GCC 9.4.0
Delphin model and file format library version 6.1.8
Material model and file format library version 6.1.1
IBK library version 5.0.0
DATAIO library version 7.1.4
CCM library version 1.1.0
JADE library version 1.3.1
JAC library version 1.6.0
Salt library version 1.0.0
Pollutant library version 1.3.0
Integrator Framework Version 1.0.0
SUNDIALS Release Version 2.7.0
Project file: 'HamstadBenchmarks/HamstadBenchmark3.d6p'
Output root dir: 'HamstadBenchmarks/HamstadBenchmark3'
Reading project file : HamstadBenchmark3.d6p
Project read successfully.
Initializing model
Initializing Solver Parameter
Automatically setting NonLinSolverConvCoeff to 0.1, so that product of reltol and factor is 1e-6.
Instantiating Balance Equation Module:
'HeatAirMoisture Balance Equation (IBK)' [BEHeatAirMoisture]
Checking assignments for valid ranges
Removed unused definitions from project
1 materials (of 1) used:
* Hamstad Benchmark 3 Leight Weight Wall
2 interface definitions (of 2) used:
* Interface 1
* Interface 2
2 initial conditions (of 2) used:
* DEFAULT Initial Temperature
* DEFAULT Initial Relative Humidity
0 field conditions (of 0) used:
0 contact conditions (of 0) used:
6 boundary conditions (of 6) used:
* Inside Air pressure
* Inside Heat Conduction
* Inside Vapor Diffusion
* Outside Air pressure
* Outside Heat Conduction
* Outside Vapor Diffusion
6 climate conditions (of 6) used:
* Inside Temperature (constant)
* Outside Temperature (constant)
* Inside Relative Humidity (constant)
* Outside Relative Humidity (constant)
* Inside Air pressure (data)
* Outside Air pressure (constant)
10 output file definition (of 10) used:
* Temp0.05m
* Temp0.10m
* Temp0.15m
* Temp0.17m
* Temp0.19m
* Moist0.05m
* Moist0.10m
* Moist0.15m
* Moist0.17m
* Moist0.19m
1 output grids (of 1) used:
* Daily
Creating default initial conditions
Default initial temperature = 20 degC
Default initial relative humidity = 80 %
Creating definitions for assessments/reports
Creating interface definitions for engineering models
Reading material data files
Reading material file 'HamstadBenchmark3LeightWeightWall_16777217.m6'.
Reading climate data files and initializing calculation
${Project Directory}/climates/HB3_pa_i.ccd
Quantity of climate data file 'GASPRESS' does not match requested quantity 'GasPressure' of climate condition definition.
Connecting Definitions
Module Setup
Selecting standard flux modules:
FluxAirConvectionEnthalpy
FluxAirConvectionMoisture
FluxAirConvectionMoistureEnthalpy
FluxHeatConduction
FluxLiquidConvection
FluxMoistureEnthalpy
FluxVaporDiffusion
Selecting standard boundary flux modules:
BCFluxAirConvectionEnthalpy
BCFluxAirConvectionMoisture
BCFluxAirConvectionMoistureEnthalpy
BCFluxHeatConduction
BCFluxMoistureEnthalpy
BCFluxVaporDiffusion
Instantiating flux modules
[BCFluxHeatConduction] Boundary Condition: Heat Conduction Flux (IBK)
[BCFluxVaporDiffusion] Boundary Condition: Vapor Diffusion Flux (IBK)
[FluxHeatConduction] Heat Conduction Flux (IBK)
[FluxLiquidConvection] Liquid Convection Flux (IBK)
[FluxVaporDiffusion] Vapor Diffusion Flux (IBK)
[BCFluxMoistureEnthalpy] Boundary Condition: Enthalpy flux for liquid convection and vapor diffusion (IBK)
[BCFluxAirConvectionMoisture] Boundary Condition: AirConvectionMoisture Flux (IBK)
[FluxAirConvectionMoisture] Convective dry air and vapor mass fluxes (IBK)
[FluxMoistureEnthalpy] Enthalpy flux for liquid convection and vapor diffusion (IBK)
[BCFluxAirConvectionEnthalpy] Boundary Condition: AirConvectionEnthalpy Flux (IBK)
[BCFluxAirConvectionMoistureEnthalpy] Boundary Condition: AirConvectionEnthalpy Flux (IBK)
[FluxAirConvectionEnthalpy] Convective dry air enthalpy flux (IBK)
[FluxAirConvectionMoistureEnthalpy] Convective vapor enthalpy flux (IBK)
Creating auxiliary model data
Initializing quantities
38 States
11 Internal Fluxes
12 Boundary Condition Fluxes
2 Sources
Discretization and Grid Generation
Grid width (x-dim, radius) = 0.2 m
Grid height (y-dim, height) = 1 m
Grid depth (z-dimension) = 1 m
Assigning materials
'Hamstad Benchmark 3 Leight Weight Wall' [HamstadBenchmark3LeightWeightWall_16777217.m6]
Assigning Initial Conditions
'Default initial relative humidity' [RelativeHumidity]
assigned to [0, 0, 0] - [199, 0, 0]
'Default initial temperature' [Temperature]
assigned to [0, 0, 0] - [199, 0, 0]
'DEFAULT Initial Temperature' [Temperature]
assigned to [0, 0, 0] - [199, 0, 0]
'DEFAULT Initial Relative Humidity' [RelativeHumidity]
assigned to [0, 0, 0] - [199, 0, 0]
Assigning field conditions
Grid numbering:
Optimizing numbering in domain #1.
Domain element range: 0..199, size = 200
Numbering Order: col, stack, row [IKJ] (loop order)
Optimizing CMK numbering starting from node:
0 -> hbw = 1
199 -> hbw = 1
CMK (optimized) - max. half bandwidth: 1
Total elements count : 200
Used elements count : 200
Assigning interfaces
Removing unused sides
Assigning output file definitions for horizontal sides.
Assigning interfaces
'Interface 1' assigned to [0, 0, 0] - [0, 0, 0] Left
'Interface 2' assigned to [199, 0, 0] - [199, 0, 0] Right
Removing unused sides
Assigning output file definitions for vertical sides.
Assigning interfaces
Removing unused sides
Assigning output file definitions for frontal sides.
Total side count : 1001
Reduced side count : 201
Creating Element -> Side links
Computing weight-factors for boundary value extrapolation
Volumes/areas for used material references:
Material Area [m2]
------------------------------------------------------------
Hamstad Benchmark 3 Leight Weight Wall 0.2
Grid complete.
Elements : 200
Sides (total/internal/boundary) : 201/199/2
Half-Bandwidth (element-based) : 1
Checking field conditions
Initializing data storage vectors (memory allocation)
Creating/opening output files
Composing initial condition vector
Input value checks
Checking modules for runtime exceptions before starting calculation.
Checking sources for runtime exceptions before starting calculation.
Checking flux modules for runtime exceptions before starting calculation.
Initialization Model Interface
Creating Linear Equation Solver Modules
Number of unknowns : 400
Element-based half-Bandwidth : 1
Using generic Band solver with bandwidth 7!
Creating Integrator
Using CVODE integrator.
Model initialization complete.
Creating solver framework
Initializing CVODE integrator
Setting NonlinConvCoef to 0.1.
Setting MaxNonLinIters (maxcor) to 3.
Initializing LES solver implementation
Stopping after successful initialization of integrator.
DELPHIN 6 Solver
All rights reserved.
The DELPHIN 6 Development Team:
Andreas Nicolai, Stefan Vogelsang, Anne Paepcke, Heiko Fechner, John Grunewald
Contact: andreas.nicolai [at] tu-dresden.de
Compiled with GCC 9.4.0
Delphin model and file format library version 6.1.8
Material model and file format library version 6.1.1
IBK library version 5.0.0
DATAIO library version 7.1.4
CCM library version 1.1.0
JADE library version 1.3.1
JAC library version 1.6.0
Salt library version 1.0.0
Pollutant library version 1.3.0
Integrator Framework Version 1.0.0
SUNDIALS Release Version 2.7.0
Project file: 'HamstadBenchmarks/HamstadBenchmark4.d6p'
Output root dir: 'HamstadBenchmarks/HamstadBenchmark4'
Reading project file : HamstadBenchmark4.d6p
Project read successfully.
Initializing model
Initializing Solver Parameter
Automatically setting NonLinSolverConvCoeff to 0.1, so that product of reltol and factor is 1e-6.
Instantiating Balance Equation Module:
'Energy and Moisture Balance Equations (IBK)' [BEHeatMoisture]
Checking assignments for valid ranges
Removed unused definitions from project
2 materials (of 2) used:
* Hamstad Benchmark 4 Load bearing material
* Hamstad Benchmark 4 Finishing material at inside
2 interface definitions (of 2) used:
* Interface 1
* Interface 2
2 initial conditions (of 2) used:
* Global temperatures
* Global capillary pressures
0 field conditions (of 0) used:
0 contact conditions (of 0) used:
5 boundary conditions (of 5) used:
* Inside Heatcond
* Inside Vapdiff
* Outside Heatcond
* Outside Vapdiff
* Outside Watcontc
6 climate conditions (of 6) used:
* Outside ambient temperature (constant)
* Outside temperature (data)
* Outside vapor pressure (constant)
* Outside imposed flux (data)
* Inside temperature (constant)
* Inside vapor pressure (data)
6 output file definition (of 6) used:
* TempField
* TempInside
* TempOutside
* MoistField
* MoistInside
* MoistOutside
2 output grids (of 2) used:
* Hourly
* Variabel
Creating default initial conditions
Default initial temperature = 20 degC
Default initial relative humidity = 80 %
Creating definitions for assessments/reports
Creating interface definitions for engineering models
Reading material data files
Reading material file 'HamstadBenchmark4Loadbearingmaterial_16777217.m6'.
Reading material file 'HamstadBenchmark4Finishingmaterialatinside_16777218.m6'.
Reading climate data files and initializing calculation
${Project Directory}/climates/HB4_Teq_e.ccd
Quantity of climate data file 'TEMPER' does not match requested quantity 'Temperature' of climate condition definition.
${Project Directory}/climates/HB4_rain.ccd
Quantity of climate data file 'WATFLUX' does not match requested quantity 'WaterFlux' of climate condition definition.
${Project Directory}/climates/HB4_pa_i.ccd
Quantity of climate data file 'VAPPRESS' does not match requested quantity 'VaporPressure' of climate condition definition.
Connecting Definitions
Module Setup
Selecting standard flux modules:
FluxHeatConduction
FluxLiquidConvection
FluxMoistureEnthalpy
FluxVaporDiffusion
Selecting standard boundary flux modules:
BCFluxHeatConduction
BCFluxMoistureEnthalpy
BCFluxVaporDiffusion
BCFluxWaterContact
Instantiating flux modules
[BCFluxHeatConduction] Boundary Condition: Heat Conduction Flux (IBK)
[BCFluxVaporDiffusion] Boundary Condition: Vapor Diffusion Flux (IBK)
[BCFluxWaterContact] Boundary Condition: Water Contact Liquid Water Flux (IBK)
[FluxHeatConduction] Heat Conduction Flux (IBK)
[FluxLiquidConvection] Liquid Convection Flux (IBK)
[FluxVaporDiffusion] Vapor Diffusion Flux (IBK)
[BCFluxMoistureEnthalpy] Boundary Condition: Enthalpy flux for liquid convection and vapor diffusion (IBK)
[FluxMoistureEnthalpy] Enthalpy flux for liquid convection and vapor diffusion (IBK)
Creating auxiliary model data
Initializing quantities
34 States
7 Internal Fluxes
9 Boundary Condition Fluxes
2 Sources
Discretization and Grid Generation
Grid width (x-dim, radius) = 0.12 m
Grid height (y-dim, height) = 1 m
Grid depth (z-dimension) = 1 m
Assigning materials
'Hamstad Benchmark 4 Finishing material at inside' [HamstadBenchmark4Finishingmaterialatinside_16777218.m6]
'Hamstad Benchmark 4 Load bearing material' [HamstadBenchmark4Loadbearingmaterial_16777217.m6]
Assigning Initial Conditions
'Default initial relative humidity' [RelativeHumidity]
assigned to [0, 0, 0] - [241, 0, 0]
'Default initial temperature' [Temperature]
assigned to [0, 0, 0] - [241, 0, 0]
'Global temperatures' [Temperature]
assigned to [0, 0, 0] - [241, 0, 0]
'Global capillary pressures' [CapillaryPressure]
assigned to [0, 0, 0] - [241, 0, 0]
Assigning field conditions
Grid numbering:
Optimizing numbering in domain #1.
Domain element range: 0..241, size = 242
Numbering Order: col, stack, row [IKJ] (loop order)
Optimizing CMK numbering starting from node:
0 -> hbw = 1
241 -> hbw = 1
CMK (optimized) - max. half bandwidth: 1
Total elements count : 242
Used elements count : 242
Assigning interfaces
Removing unused sides
Assigning output file definitions for horizontal sides.
Assigning interfaces
'Interface 1' assigned to [0, 0, 0] - [0, 0, 0] Left
'Interface 2' assigned to [241, 0, 0] - [241, 0, 0] Right
Removing unused sides
Assigning output file definitions for vertical sides.
Assigning interfaces
Removing unused sides
Assigning output file definitions for frontal sides.
Total side count : 1211
Reduced side count : 243
Creating Element -> Side links
Computing weight-factors for boundary value extrapolation
Volumes/areas for used material references:
Material Area [m2]
------------------------------------------------------------
Hamstad Benchmark 4 Load bearing material 0.1
Hamstad Benchmark 4 Finishing material at inside 0.02
Grid complete.
Elements : 242
Sides (total/internal/boundary) : 243/241/2
Half-Bandwidth (element-based) : 1
Checking field conditions
Initializing data storage vectors (memory allocation)
Creating/opening output files
Composing initial condition vector
Input value checks
Checking modules for runtime exceptions before starting calculation.
Checking sources for runtime exceptions before starting calculation.
Checking flux modules for runtime exceptions before starting calculation.
Initialization Model Interface
Creating Linear Equation Solver Modules
Number of unknowns : 484
Element-based half-Bandwidth : 1
Using generic Band solver with bandwidth 7!
Creating Integrator
Using CVODE integrator.
Model initialization complete.
Creating solver framework
Initializing CVODE integrator
Setting NonlinConvCoef to 0.1.
Setting MaxNonLinIters (maxcor) to 3.
Initializing LES solver implementation
Stopping after successful initialization of integrator.
DELPHIN 6 Solver
All rights reserved.
The DELPHIN 6 Development Team:
Andreas Nicolai, Stefan Vogelsang, Anne Paepcke, Heiko Fechner, John Grunewald
Contact: andreas.nicolai [at] tu-dresden.de
Compiled with GCC 9.4.0
Delphin model and file format library version 6.1.8
Material model and file format library version 6.1.1
IBK library version 5.0.0
DATAIO library version 7.1.4
CCM library version 1.1.0
JADE library version 1.3.1
JAC library version 1.6.0
Salt library version 1.0.0
Pollutant library version 1.3.0
Integrator Framework Version 1.0.0
SUNDIALS Release Version 2.7.0
Project file: 'HamstadBenchmarks/HamstadBenchmark5.d6p'
Output root dir: 'HamstadBenchmarks/HamstadBenchmark5'
Reading project file : HamstadBenchmark5.d6p
Project read successfully.
Initializing model
Initializing Solver Parameter
Automatically setting NonLinSolverConvCoeff to 0.1, so that product of reltol and factor is 1e-6.
Instantiating Balance Equation Module:
'Energy and Moisture Balance Equations (IBK)' [BEHeatMoisture]
Checking assignments for valid ranges
Removed unused definitions from project
3 materials (of 3) used:
* Hamstad Benchmark 5 Brick
* Hamstad Benchmark 5 Inside insulation
* Hamstad Benchmark 5 Mortar
2 interface definitions (of 2) used:
* Interface 1
* Interface 2
2 initial conditions (of 2) used:
* DEFAULT Initial Temperature
* DEFAULT Initial Relative Humidity
0 field conditions (of 0) used:
0 contact conditions (of 0) used:
4 boundary conditions (of 4) used:
* Inside Heat Conduction
* Inside Vapor Diffusion
* Outside Heat Conduction
* Outside Vapor Diffusion
4 climate conditions (of 4) used:
* Inside Temperature (constant)
* Outside Temperature (constant)
* Inside Relative Humidity (constant)
* Outside Relative Humidity (constant)
2 output file definition (of 2) used:
* MoistField
* RHField
1 output grids (of 1) used:
* Endtime
Creating default initial conditions
Default initial temperature = 20 degC
Default initial relative humidity = 80 %
Creating definitions for assessments/reports
Creating interface definitions for engineering models
Reading material data files
Reading material file 'HamstadBenchmark5Brick_16777217.m6'.
Reading material file 'HamstadBenchmark5Insideinsulation_16777218.m6'.
Reading material file 'HamstadBenchmark5Mortar_16777219.m6'.
Reading climate data files and initializing calculation
Connecting Definitions
Module Setup
Selecting standard flux modules:
FluxHeatConduction
FluxLiquidConvection
FluxMoistureEnthalpy
FluxVaporDiffusion
Selecting standard boundary flux modules:
BCFluxHeatConduction
BCFluxMoistureEnthalpy
BCFluxVaporDiffusion
Instantiating flux modules
[BCFluxHeatConduction] Boundary Condition: Heat Conduction Flux (IBK)
[BCFluxVaporDiffusion] Boundary Condition: Vapor Diffusion Flux (IBK)
[FluxHeatConduction] Heat Conduction Flux (IBK)
[FluxLiquidConvection] Liquid Convection Flux (IBK)
[FluxVaporDiffusion] Vapor Diffusion Flux (IBK)
[BCFluxMoistureEnthalpy] Boundary Condition: Enthalpy flux for liquid convection and vapor diffusion (IBK)
[FluxMoistureEnthalpy] Enthalpy flux for liquid convection and vapor diffusion (IBK)
Creating auxiliary model data
Initializing quantities
34 States
7 Internal Fluxes
8 Boundary Condition Fluxes
2 Sources
Discretization and Grid Generation
Grid width (x-dim, radius) = 0.42 m
Grid height (y-dim, height) = 1 m
Grid depth (z-dimension) = 1 m
Assigning materials
'Hamstad Benchmark 5 Brick' [HamstadBenchmark5Brick_16777217.m6]
'Hamstad Benchmark 5 Inside insulation' [HamstadBenchmark5Insideinsulation_16777218.m6]
'Hamstad Benchmark 5 Mortar' [HamstadBenchmark5Mortar_16777219.m6]
Assigning Initial Conditions
'Default initial relative humidity' [RelativeHumidity]
assigned to [0, 0, 0] - [419, 0, 0]
'Default initial temperature' [Temperature]
assigned to [0, 0, 0] - [419, 0, 0]
'DEFAULT Initial Temperature' [Temperature]
assigned to [0, 0, 0] - [419, 0, 0]
'DEFAULT Initial Relative Humidity' [RelativeHumidity]
assigned to [0, 0, 0] - [419, 0, 0]
Assigning field conditions
Grid numbering:
Optimizing numbering in domain #1.
Domain element range: 0..419, size = 420
Numbering Order: col, stack, row [IKJ] (loop order)
Optimizing CMK numbering starting from node:
0 -> hbw = 1
419 -> hbw = 1
CMK (optimized) - max. half bandwidth: 1
Total elements count : 420
Used elements count : 420
Assigning interfaces
Removing unused sides
Assigning output file definitions for horizontal sides.
Assigning interfaces
'Interface 1' assigned to [419, 0, 0] - [419, 0, 0] Right
'Interface 2' assigned to [0, 0, 0] - [0, 0, 0] Left
Removing unused sides
Assigning output file definitions for vertical sides.
Assigning interfaces
Removing unused sides
Assigning output file definitions for frontal sides.
Total side count : 2101
Reduced side count : 421
Creating Element -> Side links
Computing weight-factors for boundary value extrapolation
Volumes/areas for used material references:
Material Area [m2]
------------------------------------------------------------
Hamstad Benchmark 5 Brick 0.365
Hamstad Benchmark 5 Inside insulation 0.04
Hamstad Benchmark 5 Mortar 0.015
Grid complete.
Elements : 420
Sides (total/internal/boundary) : 421/419/2
Half-Bandwidth (element-based) : 1
Checking field conditions
Initializing data storage vectors (memory allocation)
Creating/opening output files
Composing initial condition vector
Input value checks
Checking modules for runtime exceptions before starting calculation.
Checking sources for runtime exceptions before starting calculation.
Checking flux modules for runtime exceptions before starting calculation.
Initialization Model Interface
Creating Linear Equation Solver Modules
Number of unknowns : 840
Element-based half-Bandwidth : 1
Using generic Band solver with bandwidth 7!
Creating Integrator
Using CVODE integrator.
Model initialization complete.
Creating solver framework
Initializing CVODE integrator
Setting NonlinConvCoef to 0.1.
Setting MaxNonLinIters (maxcor) to 3.
Initializing LES solver implementation
Stopping after successful initialization of integrator.
DELPHIN 6 Solver
All rights reserved.
The DELPHIN 6 Development Team:
Andreas Nicolai, Stefan Vogelsang, Anne Paepcke, Heiko Fechner, John Grunewald
Contact: andreas.nicolai [at] tu-dresden.de
Compiled with GCC 9.4.0
Delphin model and file format library version 6.1.8
Material model and file format library version 6.1.1
IBK library version 5.0.0
DATAIO library version 7.1.4
CCM library version 1.1.0
JADE library version 1.3.1
JAC library version 1.6.0
Salt library version 1.0.0
Pollutant library version 1.3.0
Integrator Framework Version 1.0.0
SUNDIALS Release Version 2.7.0
Project file: 'Ice/FreezingBrickWall_1D.d6p'
Output root dir: 'Ice/FreezingBrickWall_1D'
Reading project file : FreezingBrickWall_1D.d6p
Project read successfully.
Initializing model
Initializing Solver Parameter
Instantiating Balance Equation Module:
'Energy and Moisture Balance Equations (IBK)' [BEHeatMoisture]
Checking assignments for valid ranges
Removed unused definitions from project
1 materials (of 1) used:
* Altbauziegel Schloss Güterfelde (EG_Außenwand 1) [544]
2 interface definitions (of 2) used:
* Cold side
* Warm side
2 initial conditions (of 2) used:
* Moisture saturated
* 50 % saturated
0 field conditions (of 0) used:
0 contact conditions (of 0) used:
0 boundary conditions (of 0) used:
0 climate conditions (of 0) used:
22 output file definition (of 22) used:
* Profile-Temperature-Saturated
* Profile-RelativeHumidity-Saturated
* Profile-LiquidMassDensity-Saturated
* Integral-IceMassDensity-Saturated
* Profile-Temperature-MediumWet
* Profile-RelativeHumidity-MediumWet
* Profile-LiquidMassDensity-MediumWet
* Integral-IceMassDensity-MediumWet
* Profile-Temperature-Dry
* Profile-RelativeHumidity-Dry
* Profile-LiquidMassDensity-Dry
* Integral-IceMassDensity-Dry
* Profile-IceMassDensity-Saturated
* Profile-IceMassDensity-MediumWet
* Profile-IceMassDensity-Dry
* Profile-MoistureMassDensity-Saturated
* Profile-MoistureMassDensity-MediumWet
* Profile-MoistureMassDensity-Dry
* Capillary pressure-MediumWet
* VaporPressure-MediumWet
* Profile-Vapor flux densities-MediumWet
* Profile-Liquid flux densities-MediumWet
2 output grids (of 2) used:
* Felder und Profile
* Skalare
Creating default initial conditions
Default initial temperature = 10 degC
Default initial relative humidity = 80 %
Creating definitions for assessments/reports
Creating interface definitions for engineering models
Interface 'Cold side' [EngineeringIndoor] transformed to detailed model
Interface 'Warm side' [EngineeringIndoor] transformed to detailed model
Reading material data files
Reading material file 'AltbauziegelSchlossGueterfeldeEGAussenwand1_544.m6'.
Reading climate data files and initializing calculation
Connecting Definitions
Module Setup
Selecting standard flux modules:
FluxHeatConduction
FluxLiquidConvection
FluxMoistureEnthalpy
FluxVaporDiffusion
Selecting standard boundary flux modules:
BCFluxHeatConduction
BCFluxMoistureEnthalpy
BCFluxVaporDiffusion
Instantiating flux modules
[BCFluxHeatConduction] Boundary Condition: Heat Conduction Flux (IBK)
[BCFluxVaporDiffusion] Boundary Condition: Vapor Diffusion Flux (IBK)
[FluxHeatConduction] Heat Conduction Flux (IBK)
[FluxLiquidConvection] Liquid Convection Flux (IBK)
[FluxVaporDiffusion] Vapor Diffusion Flux (IBK)
[BCFluxMoistureEnthalpy] Boundary Condition: Enthalpy flux for liquid convection and vapor diffusion (IBK)
[FluxMoistureEnthalpy] Enthalpy flux for liquid convection and vapor diffusion (IBK)
Creating auxiliary model data
Initializing quantities
36 States
7 Internal Fluxes
8 Boundary Condition Fluxes
2 Sources
Discretization and Grid Generation
Grid width (x-dim, radius) = 0.1 m
Grid height (y-dim, height) = 1 m
Grid depth (z-dimension) = 1 m
Assigning materials
'Old Building Brick Schloss Güterfelde (GF outer brick 1)' [AltbauziegelSchlossGueterfeldeEGAussenwand1_544.m6]
VOID
Assigning Initial Conditions
'Default initial relative humidity' [RelativeHumidity]
assigned to [0, 0, 0] - [99, 4, 0]
'Default initial temperature' [Temperature]
assigned to [0, 0, 0] - [99, 4, 0]
'Moisture saturated' [RelativeHumidity]
assigned to [0, 4, 0] - [99, 4, 0]
'50 % saturated' [MoistureContent]
assigned to [0, 2, 0] - [99, 2, 0]
Assigning field conditions
Grid numbering:
Starting new domain after 100 nodes.
Starting new domain after 200 nodes.
Optimizing numbering in domain #1.
Domain element range: 0..99, size = 100
Numbering Order: col, stack, row [IKJ] (loop order)
Optimizing CMK numbering starting from node:
0 -> hbw = 1
99 -> hbw = 1
Optimizing numbering in domain #2.
Domain element range: 100..199, size = 100
Numbering Order: col, stack, row [IKJ] (loop order)
Optimizing CMK numbering starting from node:
100 -> hbw = 1
199 -> hbw = 1
Optimizing numbering in domain #3.
Domain element range: 200..299, size = 100
Numbering Order: col, stack, row [IKJ] (loop order)
Optimizing CMK numbering starting from node:
200 -> hbw = 1
299 -> hbw = 1
CMK (optimized) - max. half bandwidth: 1
Total elements count : 500
Used elements count : 300
Assigning interfaces
Removing unused sides
Assigning output file definitions for horizontal sides.
Assigning interfaces
'Cold side' assigned to [0, 0, 0] - [0, 4, 0] Left
'Warm side' assigned to [99, 0, 0] - [99, 4, 0] Right
The following interfaces are assigned in the interior of the construction (between two material elements) or to a void area. This is invalid and the respective interface assignments are ignored in the calculation.
'Cold side'
'Warm side'
Removing unused sides
Assigning output file definitions for vertical sides.
Assigning interfaces
Removing unused sides
Assigning output file definitions for frontal sides.
Total side count : 2105
Reduced side count : 303
Creating Element -> Side links
Computing weight-factors for boundary value extrapolation
Volumes/areas for used material references:
Material Area [m2]
------------------------------------------------------------
Altbauziegel Schloss Güterfelde (EG_Außenwand 1) [544] 0.06
Grid complete.
Elements : 300
Sides (total/internal/boundary) : 303/297/6
Half-Bandwidth (element-based) : 1
Checking field conditions
Initializing data storage vectors (memory allocation)
Creating/opening output files
Output definition 'Profile-Vapor flux densities-MediumWet' is assigned to at least one internal side, therefore field flux sign convention is used.
Boundary flux with ID name 'FluxLiquidConvection' is not being generated with current set of selected modules. Output flux, if requested, will be always 0.
Output definition 'Profile-Liquid flux densities-MediumWet' is assigned to at least one internal side, therefore field flux sign convention is used.
Composing initial condition vector
Input value checks
Checking modules for runtime exceptions before starting calculation.
Checking sources for runtime exceptions before starting calculation.
Checking flux modules for runtime exceptions before starting calculation.
Initialization Model Interface
Creating Linear Equation Solver Modules
Number of unknowns : 600
Element-based half-Bandwidth : 1
Using generic Band solver with bandwidth 7!
Creating Integrator
Using CVODE integrator.
Model initialization complete.
Creating solver framework
Initializing CVODE integrator
Setting NonlinConvCoef to 0.08.
Setting MaxNonLinIters (maxcor) to 3.
Initializing LES solver implementation
Stopping after successful initialization of integrator.
DELPHIN 6 Solver
All rights reserved.
The DELPHIN 6 Development Team:
Andreas Nicolai, Stefan Vogelsang, Anne Paepcke, Heiko Fechner, John Grunewald
Contact: andreas.nicolai [at] tu-dresden.de
Compiled with GCC 9.4.0
Delphin model and file format library version 6.1.8
Material model and file format library version 6.1.1
IBK library version 5.0.0
DATAIO library version 7.1.4
CCM library version 1.1.0
JADE library version 1.3.1
JAC library version 1.6.0
Salt library version 1.0.0
Pollutant library version 1.3.0
Integrator Framework Version 1.0.0
SUNDIALS Release Version 2.7.0
Project file: 'Realklima/RealKlima.d6p'
Output root dir: 'Realklima/RealKlima'
Reading project file : RealKlima.d6p
Project read successfully.
Initializing model
Initializing Solver Parameter
Automatically setting NonLinSolverConvCoeff to 0.1, so that product of reltol and factor is 1e-6.
Instantiating Balance Equation Module:
'Energy and Moisture Balance Equations (IBK)' [BEHeatMoisture]
Checking assignments for valid ranges
Removed unused definitions from project
9 materials (of 9) used:
* Altbauziegel Dresden ZE
* Levelling Plaster
* Calsitherm KP Glue Mortar
* Calsitherm Climate Board WF
* Calsitherm KP Lime Plaster
* Bitumen
* Spruce_radial (from Saxony) mue= 50 lbd_dry=0,1
* Mineral Wool 035
* Gypsum Board
7 interface definitions (of 7) used:
* Wand - Nord
* Wand - Ost
* Wand - Sued
* Wand - West
* Dach - horizontal
* Innenseite, Wand
* Innenseite, Dach
0 initial conditions (of 0) used:
0 field conditions (of 0) used:
2 contact conditions (of 2) used:
* SIGA Majrex
* Unterdachbahn Tyvek
0 boundary conditions (of 0) used:
0 climate conditions (of 0) used:
52 output file definition (of 52) used:
* State_Gesamtfeuchtegehalt_DACH
* State_Gesamtfeuchtegehalt_NORD
* State_Gesamtfeuchtegehalt_OST
* State_Gesamtfeuchtegehalt_SÜD
* State_Gesamtfeuchtegehalt_WEST
* State_Gesamtfeuchtegehalt_DACH_JahresEnde
* State_Gesamtfeuchtegehalt_NORD_JahresEnde
* State_Gesamtfeuchtegehalt_OST_JahresEnde
* State_Gesamtfeuchtegehalt_SÜD_JahresEnde
* State_Gesamtfeuchtegehalt_WEST_JahresEnde
* Flux_Feuchte_DACH
* Flux_Regen_auftreffend_DACH
* Flux_Regen_eindringend_DACH
* FluxInt_Regen_auftreffend_DACH
* Flux_Strahlung_kurzwellig_DACH
* FluxInt_Strahlung_kurzwellig_DACH
* Flux_Strahlung_langwellig_DACH
* FluxInt_Strahlung_langwellig_DACH
* Flux_Feuchte_NORD
* Flux_Regen_auftreffend_NORD
* Flux_Regen_eindringend_NORD
* FluxInt_Regen_auftreffend_NORD
* Flux_Strahlung_kurzwellig_NORD
* FluxInt_Strahlung_kurzwellig_NORD
* Flux_Strahlung_langwellig_NORD
* FluxInt_Strahlung_langwellig_NORD
* Flux_Feuchte_OST
* Flux_Regen_auftreffend_OST
* Flux_Regen_eindringend_OST
* FluxInt_Regen_auftreffend_OST
* Flux_Strahlung_kurzwellig_OST
* FluxInt_Strahlung_kurzwellig_OST
* Flux_Strahlung_langwellig_OST
* FluxInt_Strahlung_langwellig_OST
* Flux_Feuchte_SÜD
* Flux_Regen_auftreffend_SÜD
* Flux_Regen_eindringend_SÜD
* FluxInt_Regen_auftreffend_SÜD
* Flux_Strahlung_kurzwellig_SÜD
* FluxInt_Strahlung_kurzwellig_SÜD
* Flux_Strahlung_langwellig_SÜD
* FluxInt_Strahlung_langwellig_SÜD
* Flux_Feuchte_WEST
* Flux_Regen_auftreffend_WEST
* Flux_Regen_eindringend_WEST
* FluxInt_Regen_auftreffend_WEST
* Flux_Strahlung_kurzwellig_WEST
* FluxInt_Strahlung_kurzwellig_WEST
* Flux_Strahlung_langwellig_WEST
* FluxInt_Strahlung_langwellig_WEST
* TemperaturSensor
* RHSensor
2 output grids (of 2) used:
* Jahresende
* Stündlich
Creating default initial conditions
Default initial temperature = 20 degC
Default initial relative humidity = 80 %
Creating definitions for assessments/reports
Creating interface definitions for engineering models
Interface 'Wand - Nord' [EngineeringOutdoor] transformed to detailed model
Interface 'Wand - Ost' [EngineeringOutdoor] transformed to detailed model
Interface 'Wand - Sued' [EngineeringOutdoor] transformed to detailed model
Interface 'Wand - West' [EngineeringOutdoor] transformed to detailed model
Interface 'Dach - horizontal' [EngineeringOutdoor] transformed to detailed model
Interface 'Innenseite, Wand' [EngineeringIndoor] transformed to detailed model
Interface 'Innenseite, Dach' [EngineeringIndoor] transformed to detailed model
Reading material data files
Reading material file 'Altbauziegel Dresden ZE.m6'.
Reading material file 'Levelling Plaster.m6'.
Reading material file 'Calsitherm KP Glue Mortar.m6'.
Reading material file 'Calsitherm Climate Board WF.m6'.
Reading material file 'Calsitherm KP Lime Plaster.m6'.
Reading material file 'Bitumen.m6'.
Reading material file 'Spruce_radial (from Saxony) mue= 50 lbd_dry=0,1.m6'.
Reading material file 'Mineral Wool 035.m6'.
Reading material file 'Gypsum Board.m6'.
Reading climate data files and initializing calculation
Using longitude 8.58 Deg from weather data file.
Using latitude 53.53 Deg from weather data file.
Using height 7 m from weather data file.
Using timezone 1 UTC from weather data file.
Connecting Definitions
Module Setup
Selecting standard flux modules:
FluxHeatConduction
FluxLiquidConvection
FluxMoistureEnthalpy
FluxVaporDiffusion
Selecting standard boundary flux modules:
BCFluxHeatConduction
BCFluxLongWaveRadiation
BCFluxMoistureEnthalpy
BCFluxRain
BCFluxRainEnthalpy
BCFluxShortWaveRadiation
BCFluxVaporDiffusion
Instantiating flux modules
[BCFluxHeatConduction] Boundary Condition: Heat Conduction Flux (IBK)
[BCFluxLongWaveRadiation] Boundary Condition: Long Wave Radiation Flux (IBK)
[BCFluxRain] Boundary Condition: Rain Flux (IBK)
[BCFluxShortWaveRadiation] Boundary Condition: Short Wave Radiation Flux (IBK)
[BCFluxVaporDiffusion] Boundary Condition: Vapor Diffusion Flux (IBK)
[FluxHeatConduction] Heat Conduction Flux (IBK)
[FluxLiquidConvection] Liquid Convection Flux (IBK)
[FluxVaporDiffusion] Vapor Diffusion Flux (IBK)
[BCFluxMoistureEnthalpy] Boundary Condition: Enthalpy flux for liquid convection and vapor diffusion (IBK)
[BCFluxRainEnthalpy] Boundary Condition: Rain Flux (IBK)
[FluxMoistureEnthalpy] Enthalpy flux for liquid convection and vapor diffusion (IBK)
Creating auxiliary model data
Initializing quantities
34 States
7 Internal Fluxes
16 Boundary Condition Fluxes
2 Sources
Discretization and Grid Generation
Grid width (x-dim, radius) = 1.882 m
Grid height (y-dim, height) = 1 m
Grid depth (z-dimension) = 1 m
Assigning materials
'' [Calsitherm Climate Board WF.m6]
'' [Calsitherm KP Glue Mortar.m6]
'' [Spruce_radial (from Saxony) mue= 50 lbd_dry=0,1.m6]
'Bitumen' [Bitumen.m6]
'Calsitherm KP Lime Plaster' [Calsitherm KP Lime Plaster.m6]
'Gypsum Board' [Gypsum Board.m6]
'Levelling Plaster' [Levelling Plaster.m6]
'Mineral Wool 035' [Mineral Wool 035.m6]
'Old Building Brick Dresden ZE' [Altbauziegel Dresden ZE.m6]
Assigning Initial Conditions
'Default initial relative humidity' [RelativeHumidity]
assigned to [0, 0, 0] - [257, 0, 0]
'Default initial temperature' [Temperature]
assigned to [0, 0, 0] - [257, 0, 0]
Assigning field conditions
Grid numbering:
Starting new domain after 52 nodes.
Starting new domain after 104 nodes.
Starting new domain after 156 nodes.
Starting new domain after 208 nodes.
Optimizing numbering in domain #1.
Domain element range: 0..51, size = 52
Numbering Order: col, stack, row [IKJ] (loop order)
Optimizing CMK numbering starting from node:
0 -> hbw = 1
51 -> hbw = 1
Optimizing numbering in domain #2.
Domain element range: 52..103, size = 52
Numbering Order: col, stack, row [IKJ] (loop order)
Optimizing CMK numbering starting from node:
52 -> hbw = 1
103 -> hbw = 1
Optimizing numbering in domain #3.
Domain element range: 104..155, size = 52
Numbering Order: col, stack, row [IKJ] (loop order)
Optimizing CMK numbering starting from node:
104 -> hbw = 1
155 -> hbw = 1
Optimizing numbering in domain #4.
Domain element range: 156..207, size = 52
Numbering Order: col, stack, row [IKJ] (loop order)
Optimizing CMK numbering starting from node:
156 -> hbw = 1
207 -> hbw = 1
Optimizing numbering in domain #5.
Domain element range: 208..249, size = 42
Numbering Order: col, stack, row [IKJ] (loop order)
Optimizing CMK numbering starting from node:
208 -> hbw = 1
249 -> hbw = 1
CMK (optimized) - max. half bandwidth: 1
Total elements count : 258
Used elements count : 250
Assigning interfaces
Assigning contact conditions
Removing unused sides
Assigning output file definitions for horizontal sides.
Assigning interfaces
'Wand - Nord' assigned to [0, 0, 0] - [0, 0, 0] Left
'Wand - Ost' assigned to [54, 0, 0] - [54, 0, 0] Left
'Wand - Sued' assigned to [108, 0, 0] - [108, 0, 0] Left
'Wand - West' assigned to [162, 0, 0] - [162, 0, 0] Left
'Dach - horizontal' assigned to [216, 0, 0] - [216, 0, 0] Left
'Innenseite, Wand' assigned to [51, 0, 0] - [51, 0, 0] Right
'Innenseite, Wand' assigned to [105, 0, 0] - [105, 0, 0] Right
'Innenseite, Wand' assigned to [159, 0, 0] - [159, 0, 0] Right
'Innenseite, Wand' assigned to [213, 0, 0] - [213, 0, 0] Right
'Innenseite, Dach' assigned to [257, 0, 0] - [257, 0, 0] Right
Assigning contact conditions
'SIGA Majrex' assigned to [248, 0, 0] - [248, 0, 0] Left
'Unterdachbahn Tyvek' assigned to [230, 0, 0] - [230, 0, 0] Left
Removing unused sides
Assigning output file definitions for vertical sides.
Assigning interfaces
Assigning contact conditions
Removing unused sides
Assigning output file definitions for frontal sides.
Total side count : 1291
Reduced side count : 255
Creating Element -> Side links
Computing weight-factors for boundary value extrapolation
Volumes/areas for used material references:
Material Area [m2]
------------------------------------------------------------
Altbauziegel Dresden ZE 0.960001
Levelling Plaster 0.04
Calsitherm KP Glue Mortar 0.032
Calsitherm Climate Board WF 0.24
Calsitherm KP Lime Plaster 0.016
Bitumen 0.004
Spruce_radial (from Saxony) mue= 50 lbd_dry=0,1 0.025
Mineral Wool 035 0.14
Gypsum Board 0.025
Grid complete.
Elements : 250
Sides (total/internal/boundary) : 255/245/10
Half-Bandwidth (element-based) : 1
Checking field conditions
Initializing data storage vectors (memory allocation)
Creating/opening output files
Output definition 'Flux_Feuchte_DACH' is only assigned to boundary sides, therefore boundary flux sign convention is used.
Output definition 'Flux_Regen_auftreffend_DACH' is only assigned to boundary sides, therefore boundary flux sign convention is used.
Output definition 'Flux_Regen_eindringend_DACH' is only assigned to boundary sides, therefore boundary flux sign convention is used.
Output definition 'FluxInt_Regen_auftreffend_DACH' is only assigned to boundary sides, therefore boundary flux sign convention is used.
Output definition 'Flux_Strahlung_kurzwellig_DACH' is only assigned to boundary sides, therefore boundary flux sign convention is used.
Output definition 'FluxInt_Strahlung_kurzwellig_DACH' is only assigned to boundary sides, therefore boundary flux sign convention is used.
Output definition 'Flux_Strahlung_langwellig_DACH' is only assigned to boundary sides, therefore boundary flux sign convention is used.
Output definition 'FluxInt_Strahlung_langwellig_DACH' is only assigned to boundary sides, therefore boundary flux sign convention is used.
Output definition 'Flux_Feuchte_NORD' is only assigned to boundary sides, therefore boundary flux sign convention is used.
Output definition 'Flux_Regen_auftreffend_NORD' is only assigned to boundary sides, therefore boundary flux sign convention is used.
Output definition 'Flux_Regen_eindringend_NORD' is only assigned to boundary sides, therefore boundary flux sign convention is used.
Output definition 'FluxInt_Regen_auftreffend_NORD' is only assigned to boundary sides, therefore boundary flux sign convention is used.
Output definition 'Flux_Strahlung_kurzwellig_NORD' is only assigned to boundary sides, therefore boundary flux sign convention is used.
Output definition 'FluxInt_Strahlung_kurzwellig_NORD' is only assigned to boundary sides, therefore boundary flux sign convention is used.
Output definition 'Flux_Strahlung_langwellig_NORD' is only assigned to boundary sides, therefore boundary flux sign convention is used.
Output definition 'FluxInt_Strahlung_langwellig_NORD' is only assigned to boundary sides, therefore boundary flux sign convention is used.
Output definition 'Flux_Feuchte_OST' is only assigned to boundary sides, therefore boundary flux sign convention is used.
Output definition 'Flux_Regen_auftreffend_OST' is only assigned to boundary sides, therefore boundary flux sign convention is used.
Output definition 'Flux_Regen_eindringend_OST' is only assigned to boundary sides, therefore boundary flux sign convention is used.
Output definition 'FluxInt_Regen_auftreffend_OST' is only assigned to boundary sides, therefore boundary flux sign convention is used.
Output definition 'Flux_Strahlung_kurzwellig_OST' is only assigned to boundary sides, therefore boundary flux sign convention is used.
Output definition 'FluxInt_Strahlung_kurzwellig_OST' is only assigned to boundary sides, therefore boundary flux sign convention is used.
Output definition 'Flux_Strahlung_langwellig_OST' is only assigned to boundary sides, therefore boundary flux sign convention is used.
Output definition 'FluxInt_Strahlung_langwellig_OST' is only assigned to boundary sides, therefore boundary flux sign convention is used.
Output definition 'Flux_Feuchte_SÜD' is only assigned to boundary sides, therefore boundary flux sign convention is used.
Output definition 'Flux_Regen_auftreffend_SÜD' is only assigned to boundary sides, therefore boundary flux sign convention is used.
Output definition 'Flux_Regen_eindringend_SÜD' is only assigned to boundary sides, therefore boundary flux sign convention is used.
Output definition 'FluxInt_Regen_auftreffend_SÜD' is only assigned to boundary sides, therefore boundary flux sign convention is used.
Output definition 'Flux_Strahlung_kurzwellig_SÜD' is only assigned to boundary sides, therefore boundary flux sign convention is used.
Output definition 'FluxInt_Strahlung_kurzwellig_SÜD' is only assigned to boundary sides, therefore boundary flux sign convention is used.
Output definition 'Flux_Strahlung_langwellig_SÜD' is only assigned to boundary sides, therefore boundary flux sign convention is used.
Output definition 'FluxInt_Strahlung_langwellig_SÜD' is only assigned to boundary sides, therefore boundary flux sign convention is used.
Output definition 'Flux_Feuchte_WEST' is only assigned to boundary sides, therefore boundary flux sign convention is used.
Output definition 'Flux_Regen_auftreffend_WEST' is only assigned to boundary sides, therefore boundary flux sign convention is used.
Output definition 'Flux_Regen_eindringend_WEST' is only assigned to boundary sides, therefore boundary flux sign convention is used.
Output definition 'FluxInt_Regen_auftreffend_WEST' is only assigned to boundary sides, therefore boundary flux sign convention is used.
Output definition 'Flux_Strahlung_kurzwellig_WEST' is only assigned to boundary sides, therefore boundary flux sign convention is used.
Output definition 'FluxInt_Strahlung_kurzwellig_WEST' is only assigned to boundary sides, therefore boundary flux sign convention is used.
Output definition 'Flux_Strahlung_langwellig_WEST' is only assigned to boundary sides, therefore boundary flux sign convention is used.
Output definition 'FluxInt_Strahlung_langwellig_WEST' is only assigned to boundary sides, therefore boundary flux sign convention is used.
Enabling computation of integral/min/max outputs because of output file 'Realklima/RealKlima/results/FluxInt_Regen_auftreffend_DACH.d6o'. Note: this requires some additional computation after each step.
Composing initial condition vector
Input value checks
Checking modules for runtime exceptions before starting calculation.
Checking sources for runtime exceptions before starting calculation.
Checking flux modules for runtime exceptions before starting calculation.
Initialization Model Interface
Creating Linear Equation Solver Modules
Number of unknowns : 500
Element-based half-Bandwidth : 1
Using generic Band solver with bandwidth 7!
Creating Integrator
Using CVODE integrator.
Model initialization complete.
Creating solver framework
Initializing CVODE integrator
Setting NonlinConvCoef to 0.1.
Setting MaxNonLinIters (maxcor) to 3.
Initializing LES solver implementation
Stopping after successful initialization of integrator.
DELPHIN 6 Solver
All rights reserved.
The DELPHIN 6 Development Team:
Andreas Nicolai, Stefan Vogelsang, Anne Paepcke, Heiko Fechner, John Grunewald
Contact: andreas.nicolai [at] tu-dresden.de
Compiled with GCC 9.4.0
Delphin model and file format library version 6.1.8
Material model and file format library version 6.1.1
IBK library version 5.0.0
DATAIO library version 7.1.4
CCM library version 1.1.0
JADE library version 1.3.1
JAC library version 1.6.0
Salt library version 1.0.0
Pollutant library version 1.3.0
Integrator Framework Version 1.0.0
SUNDIALS Release Version 2.7.0
Project file: 'VOC/EmissionTest_BP1_Hexanal_h0.5.d6p'
Output root dir: 'VOC/EmissionTest_BP1_Hexanal_h0.5'
Reading project file : EmissionTest_BP1_Hexanal_h0.5.d6p
Project read successfully.
Initializing model
Initializing Solver Parameter
Automatically setting NonLinSolverConvCoeff to 0.1, so that product of reltol and factor is 1e-6.
Instantiating Balance Equation Module:
'Pollutant Balance Equation (IBK)' [BEPollutant]
Checking assignments for valid ranges
Removed unused definitions from project
2 materials (of 2) used:
* Particle board [348]
* Air gap 50 mm (vertical) [18]
0 interface definitions (of 0) used:
1 initial conditions (of 1) used:
* Initial VOC concentration
1 field conditions (of 1) used:
* Air change of chamber
1 contact conditions (of 1) used:
* VOC mass transfer between material and air
0 boundary conditions (of 0) used:
0 climate conditions (of 0) used:
4 output file definition (of 4) used:
* VOC concentration chamber
* VOC Permeability
* VOC concentration profile (gas)
* Emission flux
2 output grids (of 2) used:
* Fields and Profiles
* Scalars
Creating default initial conditions
Default initial temperature = 20 degC
Default initial relative humidity = 80 %
Creating definitions for assessments/reports
Creating interface definitions for engineering models
Reading material data files
Reading material file 'SpanplatteV100E1F0_348.m6'.
Reading material file 'AirGapVertical50mm_18.m6'.
Setting up pollutant module
Reading pollutant database '${Project Directory}/DB_Pollutants/voc_db_tests.vdb'.
VOC database read with 2 VOCs, 1 materials
Reading climate data files and initializing calculation
Connecting Definitions
Auto-generating CC 'Temperature' for constant value: 20 C, referenced from FC 'Air change of chamber'
Auto-generating CC 'RelativeHumidity' for constant value: 50 %, referenced from FC 'Air change of chamber'
Auto-generating CC 'VOCDensity' for constant value: 0 µg/m3, referenced from FC 'Air change of chamber'
Auto-generating CC 'FluidChangeRate' for constant value: 1 1/h, referenced from FC 'Air change of chamber'
Module Setup
Selecting standard flux modules:
FluxVOCDiffusion
No boundary conditions parameterized.
Instantiating flux modules
[FluxVOCDiffusion] VOC/Pollutant Diffusion Flux (IBK)
Selecting standard source modules:
AirChange
Instantiating source modules
[SourceAirChange] Air exchange between an air filled cavity and outside air
Creating auxiliary model data
Initializing quantities
5 States
3 Internal Fluxes
2 Boundary Condition Fluxes
5 Sources
Discretization and Grid Generation
Grid width (x-dim, radius) = 1.1125 m
Grid height (y-dim, height) = 1 m
Grid depth (z-dimension) = 1 m
Assigning materials
'Air gap 50 mm (vertical)' [AirGapVertical50mm_18.m6]
'Particle board' [SpanplatteV100E1F0_348.m6]
Assigning Initial Conditions
'Default initial relative humidity' [RelativeHumidity]
assigned to [0, 0, 0] - [159, 0, 0]
'Default initial temperature' [Temperature]
assigned to [0, 0, 0] - [159, 0, 0]
'Initial VOC concentration' [VOCMass]
assigned to [0, 0, 0] - [158, 0, 0]
Assigning field conditions
'Air change of chamber' [AirChange]
assigned to [159, 0, 0] - [159, 0, 0]
Grid numbering:
Optimizing numbering in domain #1.
Domain element range: 0..159, size = 160
Numbering Order: col, stack, row [IKJ] (loop order)
Optimizing CMK numbering starting from node:
0 -> hbw = 1
159 -> hbw = 1
CMK (optimized) - max. half bandwidth: 1
Total elements count : 160
Used elements count : 160
No interfaces assigned, construction is tight/adiabatic at all boundaries.
Assigning contact conditions
Removing unused sides
Assigning output file definitions for horizontal sides.
No interfaces assigned, construction is tight/adiabatic at all boundaries.
Assigning contact conditions
'VOC mass transfer between material and air' assigned to [158, 0, 0] - [158, 0, 0] Right
Removing unused sides
Assigning output file definitions for vertical sides.
No interfaces assigned, construction is tight/adiabatic at all boundaries.
Assigning contact conditions
Removing unused sides
Assigning output file definitions for frontal sides.
Total side count : 801
Reduced side count : 159
Creating Element -> Side links
Computing weight-factors for boundary value extrapolation
Volumes/areas for used material references:
Material Area [m2]
------------------------------------------------------------
Particle board [348] 0.0159
Air gap 50 mm (vertical) [18] 1.0966
Volumes/areas for assigned field conditions:
Field Condition Area [m2]
------------------------------------------------------------
Air change of chamber 1.0966
Grid complete.
Elements : 160
Sides (total/internal/boundary) : 159/159/0
Half-Bandwidth (element-based) : 1
Checking field conditions
Initializing data storage vectors (memory allocation)
Creating/opening output files
Boundary flux with ID name 'FluxVOCDiffusion' is not being generated with current set of selected modules. Output flux, if requested, will be always 0.
Output definition 'Emission flux' is assigned to at least one internal side, therefore field flux sign convention is used.
Composing initial condition vector
Input value checks
Checking modules for runtime exceptions before starting calculation.
Checking sources for runtime exceptions before starting calculation.
Checking flux modules for runtime exceptions before starting calculation.
Initialization Model Interface
Creating Linear Equation Solver Modules
Number of unknowns : 320
Element-based half-Bandwidth : 1
Using generic Band solver with bandwidth 7!
Creating Integrator
Using CVODE integrator.
Model initialization complete.
Creating solver framework
Initializing CVODE integrator
Setting NonlinConvCoef to 0.1.
Setting MaxNonLinIters (maxcor) to 3.
Initializing LES solver implementation
Stopping after successful initialization of integrator.
Enabling colored console output
Compiler ID : gcc_linux
Test suite : ./
Solver : ../../bin/release/DelphinSolver
Project file extension : d6p
Number of projects : 11
./DIN_EN_15026-2007/DIN EN 15026 - 2007.d6p
./EN_ISO_10211/DIN EN ISO 10211 Case1.d6p
./EN_ISO_10211/DIN EN ISO 10211 Case2.d6p
./HamstadBenchmarks/HamstadBenchmark1.d6p
./HamstadBenchmarks/HamstadBenchmark2.d6p
./HamstadBenchmarks/HamstadBenchmark3.d6p
./HamstadBenchmarks/HamstadBenchmark4.d6p
./HamstadBenchmarks/HamstadBenchmark5.d6p
./Ice/FreezingBrickWall_1D.d6p
./Realklima/RealKlima.d6p
./VOC/EmissionTest_BP1_Hexanal_h0.5.d6p
Successful projects:
Project path Wall clock time [s]
*** Success ***
Finished: SUCCESS
